Previously, the LibWeb bindings generator would output multiple per
interface files like Prototype/Constructor/Namespace/GlobalMixin
depending on the contents of that IDL file.
This complicates the build system as it means that it does not know
what files will be generated without knowledge of the contents of that
IDL file.
Instead, for each IDL file only generate a single Bindings/<IDLFile>.h
and Bindings/<IDLFile>.cpp.
The proposal has not seemed to progress for a while, and there is
a open issue about module imports which breaks HTML integration.
While we could probably make an AD-HOC change to fix that issue,
it is deep enough in the JS engine that I am not particularly
keen on making that change.
Until other browsers begin to make positive signals about shipping
ShadowRealms, let's remove our implementation for now.
There is still some cleanup that can be done with regard to the
HTML integration, but there are a few more items that need to be
untangled there.
Remove 11 heavy includes from Document.h that were only needed for
pointer/reference types (already forward-declared in Forward.h), and
extract the nested ViewportClient interface to a standalone header.
This reduces Document.h's recompilation cascade from ~1228 files to
~717 files (42% reduction). Headers like BrowsingContext.h that were
previously transitively included see even larger improvements (from
~1228 down to ~73 dependents).
The end goal here is for LibHTTP to be the home of our RFC 9111 (HTTP
caching) implementation. We currently have one implementation in LibWeb
for our in-memory cache and another in RequestServer for our disk cache.
The implementations both largely revolve around interacting with HTTP
headers. But in LibWeb, we are using Fetch's header infra, and in RS we
are using are home-grown header infra from LibHTTP.
So to give these a common denominator, this patch replaces the LibHTTP
implementation with Fetch's infra. Our existing LibHTTP implementation
was not particularly compliant with any spec, so this at least gives us
a standards-based common implementation.
This migration also required moving a handful of other Fetch AOs over
to LibHTTP. (It turns out these AOs were all from the Fetch/Infra/HTTP
folder, so perhaps it makes sense for LibHTTP to be the implementation
of that entire set of facilities.)
Fixes a regression from a copy-paste mistake in commit:
ed27eea091
The regressed CSP tests aren't able to be imported, unfortunately. They
do not work with the file-based test-web infra.
The spec declares these as a byte sequence, which we then implemented as
a ByteBuffer. This has become pretty awkward to deal with, as evidenced
by the plethora of `MUST(ByteBuffer::copy(...))` and `.bytes()` calls
everywhere inside Fetch. We would then treat the bytes as a string
anyways by wrapping them in StringView everywhere.
We now store these as a ByteString. This is more comfortable to deal
with, and we no longer need to continually copy underlying storage (as
ByteString is ref-counted).
This work is largely preparatory for an upcoming HTTP header refactor.
Generally just define things in the order they are declared (will make a
change to use ByteString in this file a bit easier to follow). Also make
a couple of free functions be class methods on Header / HeaderList.
Asserting that a sample is not provided if the resource is not Inline
is not quite valid, since Eval, TrustedTypesSink and TrustedTypesPolicy
also provide a sample.
Spec issue: https://github.com/w3c/webappsec-csp/issues/788
Previously we were using the document's window - this was both contrary
to spec and causing crashes when the document did not have a window (for
instance the `temp_document` in `HTMLParser::parse_html_fragment`.
This means we no longer crash when navigating between pages on
https://rocketlabcorp.com
This is the mechanism that should pages to determine what kind of
policies can be created on their domains mostly based around the HTTP
headers the server responds with.
